Freight accommodation on freight carrier – Load bearer accommodation – Retainer
Reexamination Certificate
2000-12-14
2002-05-21
Gordon, Stephen T. (Department: 3612)
Freight accommodation on freight carrier
Load bearer accommodation
Retainer
C410S076000
Reexamination Certificate
active
06390743
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to a device for locking containers on a vehicle, comprising a twist lock that is retained movably inside a lock housing, as well as a drive mechanism for moving the twist lock back and forth between a release position and a locking position. The locking device is used for locking a container onto the loading surface or the chassis of a vehicle, wherein the locking components project in upward direction and the outline matches the elongated hole in the container mounting.
A device for locking containers to the front of a vehicle chassis (frontal lock) is already known (European Patent 0 051 107 B1). The device comprises a twist lock that can be moved inside a guide, approximately parallel to the longitudinal axis of the vehicle chassis, between a locking and a release position, and is connected to an actuation lever that can be pivoted inside a holder. The guide and holder in this case are jointly mounted on a mounting plate that is oriented perpendicular to the movement plane of the actuation lever, wherein the mounting plate is located on the side of the guide that faces the locking component of the twist lock.
Thus, the transport of containers on the chassis of a vehicle requires a locking operation. It is essential for this operation that the container be placed at the correct location onto the chassis. An operator must then manually turn a lever to secure the locking component in the elongated hole for the drive mechanism. The problem with this operation is that it must be performed manually for each individual corner mounting.
SUMMARY OF THE INVENTION
It is the object of the present invention to automatically lock a container onto the chassis of a vehicle.
This object is achieved in that the twist lock is positioned inside the lock housing, such that it can move in axial direction as well as rotate around its axis.
The twist lock portion that is located inside the lock housing is designed to have a gear rim around its circumference, as well as a slope that increases tangentially relative to the circumference of the twist lock.
A wedge-type carriage is mounted inside the lock housing, such that it can be moved back and forth, can be pivoted and can be driven between a release position and a locking position by means of a drive mechanism (hydraulic, pneumatic, electromechanical or the like).
The wedge-type carriage is designed to have a gear rack that engages in the gear rim of the twist lock during part of the movement of the wedge-type carriage and turns the twist lock with a 90° rotation.
The wedge-type carriage is designed to have a slope or wedge, which is arranged such that it can slide and engage with the slope of the twist lock during a different movement of the wedge-type carriage and which causes the twist lock to move in axial direction.
In accordance with the invention, a drive mechanism is provided that inserts the locking component into the associated elongated hole in the container mounting, turns this component and then ensures that the component is in the locked position and remains in this position until it is released again.
We are dealing with twist lock movements that are opposing each other. It is therefore easily conceivable that these movements are carried out by means of separate drive mechanisms. However, doing so would require considerably equipment expenditure for realizing the basic idea of the present invention.
According to a modification of the present invention, a single drive mechanism can be used to generate the necessary movements, as previously described. It means a single device can be used to realize the individual operating movements in different directions. Also, the control can be coordinated with respect to time.
According to a particularly preferred embodiment of the invention, a single drive mechanism is used, which carries out only linear movements. This type of a drive mechanism can be a so-called diaphragm accumulator drive, which has been in use for some time in automobile engineering for applying the brake. The drive mechanism is supplied with energy via pneumatic lines, wherein the compressed air ensures that it is constantly maintained in the operating position. If the compressed air escapes, the diaphragm of the diaphragm accumulator returns with the aid of a spring to the balanced condition. When used with a brake, this diaphragm accumulator functions to keep the brake shoes away from the brake disk. The braking operation is initiated by removing the pneumatic pressure, so that the brake shoes can grip around the brake disk and bring the vehicle to a stop.
A diaphragm accumulator of this type is preferably used with the present invention to generate the desired movement for inserting the locking component into the elongated hole of a mounting by way of a wedge-shaped control component. The drive mechanism also carries out the rotational movement with the aid of a lever on the locking component and a gear rack on the control component.
It is apparent that all necessary movements can be carried out with the aid of a simple back and forth movement of the control component. The individual movements are carried out via surfaces, preferably level wedge-type surfaces and toothed surfaces with a complementary design. Thus, a total mechanism is created, which performs the necessary controlled movements with the simplest, mechanical means. This is achieved without having to worry about difficulties during the rough practical operations of the container transport.
On a vehicle designed to operate with the corresponding locking mechanisms, a container can easily be locked in place on the loading surface of the chassis, such that it is operationally safe. Once the container is in the predetermined position, only a short pulse is required to remove the pressure medium from the diaphragm accumulators, so that the required locking movements can be performed.
Based on the device according to the invention, the activation can occur with a wire connection from the driver cab. Of course, other transmission methods, such as the electromagnetic or infrared transmission of signals, are suited for this as well.
It is also possible to detect the end positions for the back and forth moving control component and to transmit these positions to the driver cab, so that the individual operations can be monitored there.
Other drive mechanisms can also be used, for example piston-cylinder drive mechanisms, which are operated with a pressure means.
REFERENCES:
patent: 2439423 (1948-04-01), Fowler
patent: 3193238 (1965-07-01), Sherrie
patent: 4108081 (1978-08-01), Blanz
patent: 4352613 (1982-10-01), Bertolini
patent: 5141372 (1992-08-01), Donner
patent: 5893692 (1999-04-01), Asanuma
patent: 6092967 (2000-07-01), Schulz et al.
patent: 7136868 (1972-01-01), None
patent: 2060840 (1976-10-01), None
patent: 29712120 (1987-10-01), None
patent: 19718528 (1998-12-01), None
patent: 19818278 (1998-12-01), None
patent: 0051107 (1981-06-01), None
Anderson Chad C.
Gordon Stephen T.
Hamburger Patent Schmiede GmbH
Shannon John P.
Venable
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